Fish oil has been studied for medicinal purposes, including its antipyretic properties. Eel (Anguilla bicolor bicolor) oil, which contains vitamins and fatty acids, including Omega-3 (EPA and DHA), is also expected to have the antipyretic effect. This research aimed to examine the antipyretic activity of eel oil on white mice (Mus musculus L.). An in-vivo study was done on thirty Swiss-Webster strain males mice that previously got 20% yeast-induced fever. Six treatments were applied including normal group (untreated), a negative control group (yeast-treated), a positive control group treated with acetaminophen (1.764 mg/20 g body weight), and three groups treated with eel oil (0.048, 0.096 and 0.192 g/20 g body weight, respectively). The data was analyzed statistically using one way ANOVA then was continued with LSD post hoc test. The results showed that eel oil has significantly reduced yeast-induced hyperthermia on mice five hours after application at doses 0.096 and 0.192 g/20 g body weight. Our finding suggests that eel oil possess antipyretic properties when was applied in certain doses, and this effect is presumably attributed to its high content of fatty acid, including EPA and DHA.

Ahn, J.C., Chong, W.S., Na, J.H., Yun, H.B., Shin, K.J., Lee, K.W., and Park, J.T., 2015. An Evaluation of Major Nutrients of Four Farmed Freshwater Eel Species (Anguilla japonica, A. rostrata, A. bicolor pacifica and A. marmorata). Korean Journal of Fisheries and Aquatic Sciences 48(1), 44–50. doi : 10.5657/KFAS.2015.0044.

Aronoff, D.M., and Neilson, E.G., 2001. Antipyretics: Mechanisms of Action and Clinical Use in Fever Suppression. The American Journal of Medicine 111(4), 304–315. doi : 10.1016/S0002-9343(01)00834-8.

Aziza, I.N., 2015. Perbandingan Kandungan Omega 3 dalam Minyak Ikan Bandeng (Chanos chanos Forsskal) yang Segar dengan Ikan Bandeng yang dikeringkan di Pasar. Thesis. Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Islam Bandung (UNISBA).

Benet, L.Z., Kroetz, D., Sheiner, L., Hardman, J., and Limbird, L., 1996. Pharmacokinetics: The Dynamics of Drug Absorption, Distribution, Metabolism, and Elimination. Goodman & Gilman’s The Pharmacological Basis of Therapeutics. 3–27.

Brune, K., Renner, B., and Tiegs, G., 2015. Acetaminophen/Paracetamol: A History of Errors, Failures and False Decisions. European Journal of Pain 19(7), 953–965. doi : 10.1002/ejp.621.

Calder, P.C., 2013. Omega-3 Polyunsaturated Fatty Acids and Inflammatory Processes: Nutrition or Pharmacology. British Journal of Clinical Pharmacology 75(3), 645–662. doi: 10.1111/j.1365-2125.2012.04374.x.

Camuesco, D., Gálvez, J., Nieto, A., Comalada, M., Rodríguez-Cabezas, M.E., Concha, A., Xaus, J., and Zarzuelo, A., 2005. Dietary Olive Oil Supplemented with Fish Oil, Rich in EPA and DHA (n-3) Polyunsaturated Fatty Acids, Attenuates Colonic Inflammation in Rats with DSS-Induced Colitis. The Journal of Nutrition 135(4), 687–694. doi: 10.1093/jn/135.4.687.

Farah, K., Gunawan, I.R., Putra, G.B., Agustono, Lokapirnasari, W.P., Lamid, M., Masithah, E.D., Nurhajati, T., and Rozi, 2018. Effect of Earthworm (Lumbricus rubellus) in Feed Formulation to Improve Fatty Acids Profile in Eel (Anguilla bicolor) Meat. IOP Conference Series: Earth and Environmental Science 137, 12032. doi :10.1088/1755-1315/137/1/012032.

Ghauri, M.A., Khan, G.J., Khan, S., Javeed, A., Naeem, H.S., and Ashraf, M., 2017. In-Vivo Evaluation of Analgesic, Anti-Inflammatory and Anti-Pyretic Activity of Aqueous Methanolic Extract of Jatropha gossypifolia. African Journal of Pharmacy and Pharmacology 11(30), 355–361. doi: 10.5897/AJPP2017.4812.

Graham, G.G. and Scott, K.F., 2005. Mechanism of Action of Paracetamol. American Journal of Therapeutics 12(1), 46-55.

Guil-Guerrero, J.L., Venegas-Venegas, E., Rincón-Cervera, M.Á., and Suárez, M.D., 2011. Fatty Acid Profiles of Livers from Selected Marine Fish Species. Journal of Food Composition and Analysis 24(2), 217–222. doi: 10.1016/j.jfca.2010.07.011.

James, L.P., Mayeux, P.R., and Hinson, J.A., 2003. Acetaminophen-Induced Hepatotoxicity. Drug Metabolism and Disposition 31(12), 1499–1506. doi: 10.1124/dmd.31.12.1499.

Kobayashi, N., Barnard, R.J., Henning, S.M., Elashoff, D., Reddy, S.T., Cohen, P., Leung, P., Hong-Gonzalez, J., Freedland, S.J., Said, J., Gui, D., Seeram, N.P., Popoviciu, L.M., Bagga, D., Heber, D., Glaspy, J.A., and Aronson, W.J., 2006. Effect of Altering Dietary ω-6/ω-3 Fatty Acid Ratios on Prostate Cancer Membrane Composition, Cyclooxygenase-2, and Prostaglandin E2. Clinical Cancer Research 12, 4662–4670. doi: 10.1158/1078-0432.CCR-06-0459.

Laino, C.H., 2017. Innovations in Pain Management: Morphine Combined with Omega-3 Fatty Acids. The Open Conference Proceedings 8, 52-65. doi: 10.2174/221028901708010052.

Maroon, J.C. and Bost, J.W., 2006. ω-3 Fatty Acids (Fish Oil) As An Anti-Inflammatory: An Alternative to Nonsteroidal Anti-Inflammatory Drugs for Discogenic Pain. Surgical Neurology 65, 326–331.

Mullen, A., Loscher, C.E., and Roche, H.M., 2010. Anti-Inflammatory Effects of EPA and DHA are Dependent Upon Time and Dose-Response Elements Associated with LPS Stimulation in THP-1-Derived Macrophages. The Journal of Nutritional Biochemistry 21, 444–450.

Nafsiyah, I., Nurilmala, M., and Abdullah, A., 2018. Nutrient Composition of Eel Anguilla bicolor bicolor and Anguilla marmorata. Jurnal Pengolahan Hasil Perikanan Indonesia 21, 504–512.

Raffa, R.B., Pergolizzi, J.V., Taylor, R., Decker, J.F., and Patrick, J.T., 2014. Acetaminophen (Paracetamol) Oral Absorption and Clinical Influences. Pain Practice 14, 668–677.

Sasongko, H., Efendi, N.R., Budihardjo, A., Farida, Y., Amartiwi, T., Rahmawati, A.A., Wicaksono, A., and Sugiyarto, 2017a. Solvent and Extraction Methods Effects on The Quality of Eel (Anguilla bicolor) Oil. Journal of Physics: Conference Series 795, 12021.

Sasongko, H., Sugiyarto, S., Budiharjo, A., and Efendi, N.R., 2017b. Anti-Hypercholesterolemia Effects and Quality of Eel (Anguilla bicolor) oil. International Journal of Science and Applied Science: Conference Series 2, 174–180.

Sasongko, H., Kusumastuti, N.I., Alifa, G.R., and Rahmawati, A.A., 2019. In-Vivo Analgesic and Anti-Inflammatory Effects of Eel (Anguilla bicolor bicolor) Oil. Pharmaciana 9, 59–70.

Sengar, N., Joshi, A., Prasad, S.K., and Hemalatha, S., 2015. Anti-Inflammatory, Analgesic and Anti-Pyretic Activities of Standardized Root Extract of Jasminum sambac. The Journal of Ethnopharmacology 160, 140–148.

Simopoulos, A.P., 2002. Omega-3 Fatty Acids in Inflammation and Autoimmune Diseases. Journal of the American College of Nutrition 21, 495–505.

Souza, F.R., Souza, V.T., Ratzlaff, V., Borges, L.P., Oliveira, M.R., Bonacorso, H.G., Zanatta, N., Martins, M.A.P., and Mello, C.F., 2002. Hypothermic and Antipyretic Effects of 3-Methyl- and 3-Phenyl-5-Hydroxy-5-Tichloromethyl-4,5-Dihydro-1H-Pyrazole-1-Carboxyamides in Mice. The European Journal of Pharmacology 451, 141–147.

Tesema, S.H. and Makonnen, E., 2015. In-Vivo Analgesic and Antipyretic Activities of N-Butanol and Water Fractions of Ocimum sauve. Ethiopian Journal of Health Sciences 25, 139–146.

Widyasari, R.A.H.M., Kusharto, C.M., Wiryawan, B., Wiyono, E.S., Suseno, S.H., 2014. Nutritive Value and Fatty Acids Profile of Fresh Indonesian Eel (Anguilla bicolor) and Kabayaki. Malaysian Journal of Health Sciences 12(1). doi: 10.17576/jskm-1201-2014-06.

Zaino, Q., Hidayat, E.M., and Peryoga, S.U., 2014. Antipyretic Effect of Cinnamomum burmannii (Nees & T.Nees) Blume Infusion in Fever-induced Rat Models. Althea Medical Journal 1, 100–104.